High Brightness Injector Development and ERL Planning at Cornell Charlie Sinclair Cornell University Laboratory for Elementary-Particle Physics
June 22, 2006 JLab CASA Seminar 2 Background During 2000-2001, Cornell, with much help from JLab, prepared an NSF proposal to build a 100 MeV ERL to resolve technical issues prior to proposing an ERL-based hard X-ray light source In February 2005, the NSF funded Cornell to build the injector portion of the original proposal Construction of a fully coherent hard X-ray source is on NSF s long range MRE plan In 2006, New York funded Cornell for studies and work related to completing the proposal for the full light source
June 22, 2006 JLab CASA Seminar 3 Proposal vs. funded Merger, precision diagnostics, and dump Gun, buncher, and SRF accelerator Main linac Recirculation loop Two stages Operate gun and diagnostics in gun laboratory, then operate complete injector (5 to 15 MeV) in the L0 area of Wilson Lab
June 22, 2006 JLab CASA Seminar 4 Injector Specifications Average current 100 ma (77 pc/ bunch, 1300 MHz repetition rate) Variable final energy 5 to 15 MeV Beam power 575 kw average Bunch length < 2 ps, rms Transverse emittances < 0.1 μm-rad (normalized, rms) Photocathode operational lifetime 100 hours
June 22, 2006 JLab CASA Seminar 5 Injector Optimization We developed a genetic algorithm based computational optimization of our injector, which showed that we should be able to make very small emittance beams. (Bazarov et al., Phys. Rev. ST-AB 034202 (2005))
June 22, 2006 JLab CASA Seminar 6 Injector Optimization Optimum transverse emittance is dominated by the cathode thermal emittance this is a tremendous advantage for NEA photocathodes, and implies emittance reduction with cathode cooling Emittance compensation works just fine for the DC gun case Gentle (adiabatic?) bunching is preferred Solutions are insensitive to small parameter variations
June 22, 2006 JLab CASA Seminar 7 Injector Elements Photoemission electron gun, 750 kv maximum cathode potential, NEA GaAs or GaAsP cathode, 1300 MHz laser system Normal conducting single cell 1300 MHz buncher Cryomodule with five 2-cell SRF cavities Precision controlled high power RF systems Merger magnet system Precision diagnostic beam line Full power beam dump
June 22, 2006 JLab CASA Seminar 8 750 Photoemission Gun Cathode Entry This gun design incorporates a number of novel features, such as a resistive coated ceramic, photocathode cooling, a cooled beryllium anode, and over 20 m 3 /sec of hydrogen pumping speed Beam Out The gun was assembled without touching any cathode electrode surface
Gun Ceramic from CPI June 22, 2006 JLab CASA Seminar 9
Cathode Electrode Assembly June 22, 2006 JLab CASA Seminar 10
SF 6 Tank Installation June 22, 2006 JLab CASA Seminar 11
Photocathode Load Lock and Preparation System June 22, 2006 JLab CASA Seminar 12
300 kv, 100 ma Power Supply June 22, 2006 JLab CASA Seminar 13
Gun and Power Supply in Tank June 22, 2006 JLab CASA Seminar 14
Beam Line looking toward Gun June 22, 2006 JLab CASA Seminar 15
Beam Dump during assembly June 22, 2006 JLab CASA Seminar 16
Starting the shielding June 22, 2006 JLab CASA Seminar 17
June 22, 2006 JLab CASA Seminar 18 Lasers With our CW argon ion laser, the present setup will allow us to study Photocathode thermal emittance Photocathode operational lifetime at high average current Adding a laser with RF time structure and additional diagnostics, we will study Emittance as a function of bunch charge Temporal structure of the bunches 50 MHz, and 1300 MHz frequency doubled Yb fiber lasers in development with A&EP
June 22, 2006 JLab CASA Seminar 19 Laser Development 50 MHz fundamental frequency mode-locked Yb fiber oscillator Harmonic mode-locking to reach 1300 MHz Yb fiber amplifier(s) to reach ~ 130 W in the IR. (100 nj/pulse) Frequency multiplication in LBO to give > 20 W in the green after pulse shaping Initial transverse shaping with aspherics, temporal shaping with pulse stacking Pattern control with BBO Pockels cell
June 22, 2006 JLab CASA Seminar 20 Output Power (W) 30 25 20 15 10 5 0 0 200 400 600 800 Input Power (mw) Output power [Watts] 4.4 4.0 3.6 3.2 0 10 20 30 40 50 Input power [mw] Output power [W] 20 15 10 5 Slope efficiency 85% Output [watts] 8 6 4 2 Slope efficiency = 78% 0 0 5 10 15 20 Pump power [W] 25 30 Simulation with Liekki Application designer 0 0 5 10 15 Pump power [watts] 20 First measurements On amplifier
June 22, 2006 JLab CASA Seminar 21 1.20 Diameter [mm] 0.80 0.40 M 2 = 1.87 0.00 500 0.6 600 700 Distance [mm] 800 SHG [watts] 0.4 0.2 15 mm LBO doubler Non-critical phase matched 5 cm focal length 0.0 0 1 2 3 Pump [watts] 4 5
Plan View Gun Test Lab June 22, 2006 JLab CASA Seminar 22
June 22, 2006 JLab CASA Seminar 23 Additional Activities Outgassing studies Best result to date, following VIRGO prescription, is an outgassing rate of ~ 2 x 10-13 torr-liter/sec-cm 2 Photocathode preparation Routinely prepare ~ 17% QE photocathodes on both GaAs and GaAsP wafers Field emission reduction Evaluated 316 LN, Ti4V6Al, and GCIB treated materials Have achieved zero emission up to 20-22 MV/m
June 22, 2006 JLab CASA Seminar 24 Bare Ti4V6Al Electrode Ti4V6Al Electrode 3500 3000 2500 Current (pa) 2000 1500 1000 500 0-500 0 5 10 15 20 25 Electric Field (MV/m)
June 22, 2006 JLab CASA Seminar 25 GCIB treated 304 SS GCIB treated 304 SS 450 400 350 300 Current (pa) 250 200 150 100 50 0-50 0 5 10 15 20 25 30 Electric Field (MV/m)
June 22, 2006 JLab CASA Seminar 26 Ion Back Bombardment A very bright undergrad student has been modeling ion creation and back bombardment in the gun We have been using sputtering of cesium fluoride as a surrogate for what is degrading the cathode quantum efficiency under ion bombarment I can almost explain the QE degradation as due solely to sputtering of the NEA activation layer We have detailed predictions we can test with our gun
June 22, 2006 JLab CASA Seminar 27 Current Status Gun, preparation system, beam line, and dump are all assembled and baked We have been plagued by a series of leaks ion the preparation system, and most recently, in the gun We see strong field emission at relatively low voltages on the gun, and so far, have not been able to process through this I am starting to survey the local bridges
SRF Cavity Design June 22, 2006 JLab CASA Seminar 28
First 2-cell Niobium Cavity Weldment June 22, 2006 JLab CASA Seminar 29
First Vertical Test June 22, 2006 JLab CASA Seminar 30
RF Power Coupler Design June 22, 2006 JLab CASA Seminar 31
RF Power Coupler June 22, 2006 JLab CASA Seminar 32
June 22, 2006 JLab CASA Seminar 33 HOM Loads Extensive program to find absorbers over the full frequency range at low temperature completed. Three different materials necessary RF pickups RF absorbing tiles (three types) Fabrication of first load nearly complete RFP ready to send to vendors for remaining loads
The fully dressed cavity June 22, 2006 JLab CASA Seminar 34
June 22, 2006 JLab CASA Seminar 35 Cryomodule Design Concept Support Posts Piezo Tuners Cold He Gas Return Pipe Cold Part of RF Power Coupler Motorized Frequency Tuner 2K Liquid Supply Line
June 22, 2006 JLab CASA Seminar 36 Cryomodule Status Fabrication of five two-cell cavities underway First test of RF power coupler pair in July, with procurement of ten more couplers to follow First article HOM load test soon, procurement in process Blade tuner development underway in collaboration with University of Pennsylvania 2K cryogenic plant under construction First horizontal test of fully dressed cavity early in March 2007
June 22, 2006 JLab CASA Seminar 37 1300 MHz RF Power Sources 16 kw IOT transmitter in house, passed acceptance test. Will be used for: RF power coupler tests Buncher power Transverse deflecting cavity diagnostic 160 kw klystron in development at e2v Technologies (England) First tube on pump stand, should begin RF testing in early July First tube delivered in early August Five additional tubes by April, 2007
June 22, 2006 JLab CASA Seminar 38 First Klystron on Pump Stand Klystron Specifications > 120 kw CW output with incremental gain > 0.5 Efficiency > 50% at 120 kw, 0.5 incremental gain Small signal gain > 45 db +/- 2 MHz at 1 db +/- 3 MHz at -3 db Seven cavity design required to meet specifications
Injector Layout in L0 June 22, 2006 JLab CASA Seminar 39
L0 Layout with Mezzanine June 22, 2006 JLab CASA Seminar 40
June 22, 2006 JLab CASA Seminar 41 Time Line 750 kv Gun Power Supply delivered in November 2006 Gun tests in lab continue through 2007 Begin clearing area for control room, and starting installation later this year Three (at most) horizontal cavity tests will be completed by October 2007 L0 area ready for installation in November 2007 Begin beam operations in September 2008
ERL @ CESR June 22, 2006 JLab CASA Seminar 42
ERL @ CESR June 22, 2006 JLab CASA Seminar 43
June 22, 2006 JLab CASA Seminar 44 Full Machine Planning Detailed lattice design underway, with a total of 18 X-ray beam lines Detailed WBS in development, prepatory to developing a full budget and schedule for the full machine Test borings of site underway with NYS funds Six X-ray workshops held this month, to build the science case for the full machine Plan to submit a proposal for a 5 GeV ERL light source in December, 2007 Construction start in 2011???